photoelelectronic device

简明释义

光电子掐

英英释义

例句

1.In the field of medicine, a photoelelectronic device is used for non-invasive imaging techniques.

在医学领域，光电子设备被用于非侵入性成像技术。

2.The solar panels utilize a photoelelectronic device to harness solar energy for residential power.

这些太阳能电池板利用光电子设备来收集太阳能以供家庭使用。

3.Researchers are developing a photoelelectronic device that can convert sunlight into electricity more efficiently.

研究人员正在开发一种光电子设备，可以更高效地将阳光转化为电能。

4.Many modern cars use a photoelelectronic device for automatic headlight adjustment based on ambient light.

许多现代汽车使用光电子设备根据环境光线自动调整车灯。

5.The new smartphone features a cutting-edge photoelelectronic device that enhances camera performance in low light.

这款新智能手机配备了先进的光电子设备，提升了低光环境下的相机性能。

作文

In today's rapidly advancing technological landscape, the role of photoelelectronic device (光电设备) has become increasingly significant. These devices, which convert light into electrical signals, play a crucial role in various applications ranging from consumer electronics to industrial automation. Understanding the principles and functionalities of photoelelectronic device is essential for anyone interested in modern technology, as they are integral to innovations such as solar panels, cameras, and optical sensors.One of the most common examples of a photoelelectronic device is the photovoltaic cell, which is used in solar panels to harness solar energy. When sunlight hits the photovoltaic cells, it excites electrons, generating an electric current. This process not only provides a renewable energy source but also reduces our reliance on fossil fuels, contributing to a more sustainable future. As the demand for clean energy continues to grow, the development of efficient photoelelectronic device technology becomes paramount.Another important application of photoelelectronic device is in digital cameras. The image sensors in these cameras, such as CCD (Charge-Coupled Device) and CMOS (Complementary Metal-Oxide-Semiconductor), are types of photoelelectronic device that convert light into electronic signals to create images. The evolution of these sensors has led to significant improvements in image quality, low-light performance, and overall camera functionality. As photography becomes more accessible through smartphones and other devices, understanding how photoelelectronic device works can enhance our appreciation for the technology behind capturing moments.Moreover, photoelelectronic device are also utilized in various industrial applications. For instance, optical sensors are employed in manufacturing processes to detect the presence of objects, measure distances, and monitor environmental conditions. These sensors contribute to automation and efficiency in production lines, ultimately leading to cost savings and improved product quality. The integration of photoelelectronic device in industry represents a significant advancement in the quest for smarter, more efficient systems.In the realm of communication, photoelelectronic device have revolutionized how we transmit information. Fiber optic technology, which relies on light to carry data over long distances, is a prime example. By using photoelelectronic device to convert electrical signals into light signals, we can achieve faster and more reliable communication networks. This has transformed the way we connect with one another, enabling high-speed internet and seamless global communication.As we look towards the future, the potential for photoelelectronic device continues to expand. Research and development in this field are focused on creating more efficient and versatile devices. Innovations such as organic photovoltaics and advanced image sensors are on the horizon, promising even greater advancements in energy capture and imaging technology.In conclusion, the significance of photoelelectronic device in contemporary society cannot be overstated. From renewable energy solutions to advancements in imaging and communication, these devices are at the forefront of technological innovation. As we continue to explore and understand their capabilities, we pave the way for a future where technology and sustainability go hand in hand. Embracing the knowledge of photoelelectronic device will undoubtedly enrich our understanding of the world around us and inspire further breakthroughs in science and engineering.

在当今迅速发展的技术环境中，光电设备（photoelelectronic device）的作用变得越来越重要。这些设备将光转换为电信号，在从消费电子到工业自动化的各种应用中发挥着关键作用。理解光电设备的原理和功能对于任何对现代技术感兴趣的人来说都是必不可少的，因为它们是太阳能电池板、相机和光学传感器等创新的核心。光电设备的一个最常见的例子是光伏电池，它用于太阳能电池板以利用太阳能。当阳光照射到光伏电池时，它激发电子，产生电流。这个过程不仅提供了可再生能源，还减少了我们对化石燃料的依赖，有助于更可持续的未来。随着对清洁能源需求的不断增长，开发高效的光电设备技术变得至关重要。光电设备的另一个重要应用是在数码相机中。这些相机中的图像传感器，如CCD（电荷耦合器件）和CMOS（互补金属氧化物半导体），是将光转换为电子信号以创建图像的一种光电设备。这些传感器的演变导致了图像质量、低光性能和整体相机功能的显著改善。随着摄影通过智能手机和其他设备变得更加普及，理解光电设备的工作原理可以增强我们对捕捉瞬间背后技术的欣赏。此外，光电设备还广泛应用于各种工业应用中。例如，光学传感器被用于制造过程中检测物体的存在、测量距离和监测环境条件。这些传感器有助于生产线的自动化和效率，最终带来成本节约和产品质量的提高。在工业中集成光电设备代表了追求更智能、更高效系统的重要进步。在通信领域，光电设备彻底改变了我们传输信息的方式。光纤技术依赖于光在长距离上传输数据，是一个典型的例子。通过使用光电设备将电信号转换为光信号，我们可以实现更快和更可靠的通信网络。这改变了我们彼此连接的方式，使高速互联网和无缝的全球通信成为可能。展望未来，光电设备的潜力仍在不断扩大。在这一领域的研究和开发专注于创造更高效和多功能的设备。有机光伏和先进的图像传感器等创新正在出现，承诺在能源捕获和成像技术方面取得更大的进步。总之，光电设备在当代社会中的重要性不容小觑。从可再生能源解决方案到成像和通信的进步，这些设备处于技术创新的前沿。随着我们继续探索和理解它们的能力，我们为技术与可持续发展的未来铺平了道路。掌握光电设备的知识无疑将丰富我们对周围世界的理解，并激励科学和工程领域的进一步突破。